Genetics and pathophysiology of mental retardation

Chelly, Jamel; Khelfaoui, Malik; Francis, Fiona; Beldjord, Chérif; Bienvenu, Thierry

doi:10.1038/sj.ejhg.5201595

Cited by 230 publications

(203 citation statements)

References 87 publications

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“…[8][9][10][11][12] In affected children from consanguineous families, autosomal recessive (AR) inheritance is common; 13 however, congenital disorders with ID constitute an important medical problem because they represent a challenge in diagnosis, high prevalence and life-long care that most of these patients need. 14 A recent review suggests that ARID is not rare, and in outbred populations as many as 13-24% of ID may be due to AR genes, 13 and identifying the underlying genetic cause is an important issue in clinical genetics.…”

Section: Introductionmentioning

confidence: 99%

Missense variants in AIMP1 gene are implicated in autosomal recessive intellectual disability without neurodegeneration

et al. 2015

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AIMP1/p43 is a multifunctional non-catalytic component of the multisynthetase complex. The complex consists of nine catalytic and three non-catalytic proteins, which catalyze the ligation of amino acids to their cognate tRNA isoacceptors for use in protein translation. To date, two allelic variants in the AIMP1 gene have been reported as the underlying cause of autosomal recessive primary neurodegenerative disorder. Here, we present two consanguineous families from Pakistan and Iran, presenting with moderate to severe intellectual disability, global developmental delay, and speech impairment without neurodegeneration. By the combination of homozygosity mapping and next generation sequencing, we identified two homozygous missense variants, p. (Gly299Arg) and p.(Val176Gly), in the gene AIMP1 that co-segregated with the phenotype in the respective families. Molecular modeling of the variants revealed deleterious effects on the protein structure that are predicted to result in reduced AIMP1 function. Our findings indicate that the clinical spectrum for AIMP1 defects is broader than witnessed so far.

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Section: Introductionmentioning

confidence: 99%

Missense variants in AIMP1 gene are implicated in autosomal recessive intellectual disability without neurodegeneration

et al. 2015

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“…The underlying causes are extremely heterogeneous, including genetic causes, many of which are X-linked (XLMR) (1,2). Null mutations in the IL1-receptor accessory protein-like 1 gene (IL1RAPL1) [National Center for Biotechnology Information (NCBI) accession no.…”

Section: Ognitive Impairment or Mental Retardation (Mr) Affectsmentioning

confidence: 99%

IL1-receptor accessory protein-like 1 (IL1RAPL1), a protein involved in cognitive functions, regulates N-type Ca ²⁺ -channel and neurite elongation

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Pavlowsky

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et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

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. The functional relevance of the interaction between IL1RAPL1 and NCS-1 was also suggested by the reduction of neurite elongation observed in nerve growth factor (NGF)-treated IL1RAPL1 cells, a phenotype rescued by NCS-1 inactivation. Because both proteins are highly expressed in neurons, these results suggest that IL1RAPL1-related mental retardation could result from a disruption of N-VGCC and/or NCS-1-dependent synaptic and neuronal activities.PC12 cells ͉ neuronal calcium sensor-1 ͉ X-linked mental retardation ͉ exocytosis C ognitive impairment or mental retardation (MR) affects Ϸ2% of the population, leading to moderate (IQ Ͻ70) up to severe (IQ Ͻ50) handicap. The underlying causes are extremely heterogeneous, including genetic causes, many of which are X-linked (XLMR) (1, 2). Null mutations in the IL1-receptor accessory protein-like 1 gene (IL1RAPL1) [National Center for Biotechnology Information (NCBI) accession no. NM 014271.2] have been involved in a nonsyndromic form of XLMR (3). IL1RAPL1 and the closely related protein IL1RAPL2 (NCBI accession no. NM 017416) belong to a previously unrecognized class of the interleukin-1/toll receptor family characterized by the presence of a 150-aa C terminus domain with unknown function (3, 4). IL1RAPL1 and IL1RAPL2 have specific, but not redundant, temporal and spatial expression pattern in the brain, Il1rapl1, the mouse homologue of IL1RAPL1, being specifically expressed in adult brain structures that are known to be involved in the hippocampal memory system (3).Most of physiological and biological properties of IL1RAPL proteins remain largely unknown. Recent studies have demonstrated that expression of IL1RAPL1 in PC12 cells leads to a profound inhibition of ATP-induced growth hormone (GH) release (4). The underlying cellular pathways remain to be elucidated; however, IL1RAPL1 has been shown to interact by way of its 150-aa C-terminal domain with the neuronal calcium sensor-1 protein (NCS-1), a protein widely expressed in neurons (5) and the related chromaffin and PC12 cells (6).NCS-1 belongs to a large Ca 2ϩ -binding protein family (7) implicated in the regulation of Ca 2ϩ -dependent exocytosis (6) through its activation of PI 4 kinase and PIP 2 formation (8-10). Moreover, NCS-1 modulates Ca 2ϩ channels trafficking and activity in various cellular models (11, 12) and has effects on synaptic transmission by way of activity-dependent facilitation of P/Q-type calcium currents at presynaptic nerve terminals (13). Finally, at the behavioral level, NCS-1 appears also to be involved in associative learning and memory (14).Here, we focus on IL1RAPL1 functions by studying the physiological impact of IL1RAPL1/NCS-1 interaction in PC12 cells, a well known model of both nerve growth factor (NGF)-induced neuronal differentiation and Ca 2ϩ -dependent exocytosis. We show that expression of IL1RAPL1 in PC12 cells, which do not normally express the IL1RAPL1 protein, mediates, through IL1RAPL1/NSC-1 interaction, a down-regulation of N-type voltage-gated calcium channel (N-VGCC) ac...

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“…2,3 Genetic causes contribute significantly to MR and among these autosomal recessive inheritances may account for a substantial part of this disorder. Although no recent estimations have been made, autosomal recessive genes have previously been estimated to account for up to 25% of unexplained MR. [4][5][6][7] This is more than two times as frequent as the contribution of single X-chromosomal genes to MR, which is estimated to explain MR in 10% of affected men. [8][9][10] For practical reasons, over the last few decades, the focus in genetic MR research has been on X-linked MR, leading to the identification of 90 disease genes on the X-chromosome of which 38 (42%) lead to nonsyndromic MR. 11 In contrast, of the 348 genes contributing to autosomal recessive mental retardation (AR-MR) phenotypes, only six genes (1.6%) have been identified giving rise to nonsyndromic AR-MR (OMIM: http://www.ncbi.nlm.nih.gov/omim).…”

Section: Introductionmentioning

confidence: 99%

Homozygosity mapping in outbred families with mental retardation

et al. 2011

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Genetics and pathophysiology of mental retardation

Cited by 230 publications

References 87 publications

Missense variants in AIMP1 gene are implicated in autosomal recessive intellectual disability without neurodegeneration

Missense variants in AIMP1 gene are implicated in autosomal recessive intellectual disability without neurodegeneration

IL1-receptor accessory protein-like 1 (IL1RAPL1), a protein involved in cognitive functions, regulates N-type Ca ²⁺ -channel and neurite elongation

Homozygosity mapping in outbred families with mental retardation

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Genetics and pathophysiology of mental retardation

Cited by 230 publications

References 87 publications

Missense variants in AIMP1 gene are implicated in autosomal recessive intellectual disability without neurodegeneration

Missense variants in AIMP1 gene are implicated in autosomal recessive intellectual disability without neurodegeneration

IL1-receptor accessory protein-like 1 (IL1RAPL1), a protein involved in cognitive functions, regulates N-type Ca 2+ -channel and neurite elongation

Homozygosity mapping in outbred families with mental retardation

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IL1-receptor accessory protein-like 1 (IL1RAPL1), a protein involved in cognitive functions, regulates N-type Ca ²⁺ -channel and neurite elongation